Glass forming machine



Feb. 16, 1932. Tn H. SLOAN GLASS FORMING MACHINE Filed May 24, 1928 8 Sheets-Sheet l INVENTOR.

sa@ 5m* Feb. 1932. x `T. H. SLOAN 1,845,525

GLAS S FORMING MACHINE Filed May 24, 1928 8 Sheets-Sheet 2 VH GOi 2 Gx O F1 LE N NVENTOR M HIM Feb. 16, 1932. T. H. SLON GLASS FORMING MACHINE Filed May 24, 1928 8 Sheets-Sheet 5 b E m. Q s* et J0 o Y o o J or, :o Jo Nt O 0 "n.1 TNW/O n alli E o HH. O /w .1 o@ m w 6 O .l k o E o ,o @5 nw o, 5 0 o Q O90 o @o O o O 9 O Q .m.m:|

O T N E mm. w N |\\N o S t Feb. 16, 1932. v T H, SLOAN L845525 GLASS FRMING MACHINE Filed May 24, 1923 8 sheets-sheet 4 Fus. 4.

IN VEN To/fz` Feb. 16, 1932. T. H, SLOAN 1,845,525

GLASS FORMING MACHINE Filed May 24, 1928 8 SheeS-Sheeb 5 INVENTOR.

Feb. 16, 1.932. T. H, SLOAN A 1,845,525

GLAS S FORMI NG MACHINE Ffiled May 24, 1928 8 Sheets-Sheet 6 24 (Twam ST4@1 Feb. 16, T- H SLOAN GLASS FORMING MACHINE Filed May 24, 1928 8 Sheets-Sheet' 7 NVENTOR.. ffwi Feb. 16, 1932. T H, 5| OAN 1,845,525

GLASS FORMING MACHINE Filed May 24, 1928 8 Sheets-Sheet 8 HEAD.

NVENTOR Patented? itt.- 16, 1932 t UNITED Lsrivrlazs- PATENT ori-Ica 'rnnononrA n. sLoAN, or CHARLEROI, PENNSYLVANIA, AssIGNon To mcB'E'rnutvANs VcrLAss coMrANY,l A conPonArI'oN or :PENNSYLVANIA GLASS FORMING MACHINE Application niednay 24,

tumblers.

In the hand production of paste mold glass articles, the practice is,'and from time out of vmind has been, for a workman to gather a body of glass on the end of a blow pipe, and

thereafter marver the gather to preliminarily shape it and chill its outer surface to form a skin having a suitable heat gradient.' .The workman then puiis the marvered blank while holding the blow pipe upwardly and rotating it continuously or intermittently as may be required. I-Ie thenswings the blow pipe with the puffed blank in a' downward position to properly elongate and enlarge the blank, after whichhe places it in a mold for final blowing during which the blank is rotated withinthe mold or the mold is rotated with relation to the blank.

Within the past several years, commercially successful machines have been produced for the manufacture of this type of glass-ware. However, it is characteristic o'f such machines that their mechanism is constructed and operated to simulate the procedure of hand manufacture. Parisons or blanks are formed on,

the upper Lends of vertically*` disposed blow heads, and in such positions of the blow heads the blanksuare puffed. The blow heads are then turned downwardly while puiiin continus, and the heads are simultaneous y rotated on their longitudinal axes. Thereafter, the heads are usually swung in their downward positions to elongate the blanks which are then enclosed in molds for nal blowing,

the blanks being rotated inthe molds during such blowing.

The object of this invention is to provide a simplified method of manufacturing paste mold glass articles, and to provide simple and 4effective apparatus whereby the method may 192s. serial No. 280,240.

be economically practiced, and on which other types of glassware may be made.

The invention is predicated largely upon my discovery that by forming, at the lower end of a vertically disposed blow head, a parison of a particular shape, the parison maybe developed and blown in a paste mold while the blow head is maintained in its vertically disposed position. As to shape, the parison,

when attached to a blow head in the position` stated, has a horizontal diameter greater than its thickness, and it is thicker at its center than at its edge. In general theparlson may formed, it may be preliminarily developed for final blowing in a mold by either pullingor graduall blowing it in its suspended later; ally-uncon ned position, either with or Withlout rotating it on its vertical axis.

heads, and provide means forapplying each.

gather to the lower end o a blow head in the form of a button-shaped parison. The'blowing machine is provided with mechanism which becomes el'ective after such a parison is so applied to ablow head to preliminarily blow or puff the parison while laterally un' coniined to develop a paste-mold blank suspended from the head, and to thereafter give the suspended blank a final blow in a mold while effecting relative rotation between the' mold and the blank, the rotation preferably being effective by rotating the blank. .Although various means may beprovided for transferring ,successive bodies of glass from the source of supply and for applying-them` in the form of button-shaped parisons successively to the several -blow heads, the gathers are preferably received from the source by receiving cups whichmove between be said to be button-shaped. When itis so atV the source of supply and the blowing machine, and which are provided with vertlcally movable bottoms to elevate the gathers to and mold them in proper form upon the lower ends of the blow heads.

` The invention will be further explained in connection with the description of the appratus illustrated herein for practicing it.

thedrawings F ig.1 is a plan view of a blowing machine and gather-transferring apparatus associated with it, the forehearthof a glass furnace' being diagrammatically illustrated adjacent the transfer apparatus; Fig. 2 a vertical sectional view taken on the broken line H-II, Fig.f1; Fig.,3 a horizontal sectional view taken on the line III-III, Fig. 2; Fig. 4 a vertical sectional view to enlarged sleale ofthe left-hand end of Fig. 2; Fig. 5 an elevation to enlarged scale of a glass feeding mechanism associated with the transfer apparatus, certain portions being broken away and shown in section to illustrate details of construction; Fig. 6 a

horizontal sectionalview taken on the broken line VI-VI, Fig. 5; Fig. 7 a vertical sectional view taken ron the line VII-VII, Fig. 6 Fig. 8 a vertical sectional view of a detail o the transfer mechanism taken on the line VIII-VIII, Fig. 4; Fig. 9 a vertical sectional view of another detail of the transfer apparatus taken on the line IX-JX, Fig. 4;

' Fig. 10 a vertical sectional view to enlarged 401 son into a blown electric lanip bulb.

-scale corresponding to the upper left-hand portion of Fig. 2; Fig. 11 a front elevation of a valve for controlling blowing air; Fig.

v 12 a vertical sectional view through the valve of Fig. 11 and an elevation of an actuating member for the valve; and Figs. 13 and 18, inclusive, vertical sectional views illustrating the various stages of development of a pari- Having reference to the illustrative embodiment of the invention, and particularly to Figs. 1, 2 and 3, the glass forming machine and transferring apparatus are shown `as mounted on a bed frame 1. The forming ma- 'l tervals, the turret is provided with a plurality of vertically disposed blow vheads 6 having their glass-receiving ends lowermost. and

with a plurality of partible molds' 7, one being arranged' for cooperation with each blow head. The construction andpperation of the blow heads and molds will be explained after describing the mechanism for delivering glass m a source of supply and transferring it to the blow heads. IThe blowing machine turret is preferably continuously rotated by a motor 8 mounted on frame 1, the motor armature being provided with a pinion 9 meshing with asgear 10 yattached to a shaft 11, which shaft'is provided with a worm 12 meshing with a worm wheel 13 mounted on a vertically disposed shaft 14. The upper end of shaft 14 is provided with a pinion 15 (Fig. 1) which meshes with an internal gear 16 (Fig. 2) attached to the llower face of turret plate 2.

As shown in Figs. 2 and 3, power shaft 11 extends to the left end of frame 1 where it is provided with -a bevel pinion 17 meshing with a similar pinion 18 mounted on the upper end of a shaft 19. The lower end of this shaft is provided with a bevel pinion 20 meshing with a similar pinion 21 attached to'a shaft 22 for operating a glass feeder presently to be described. Also, as shown in Figs. 2 and 6, power shaft 11 is provided with a pinion 23 meshing with a pinion 401 attached ,to a counter shaft 402 which is provided with a Worm wheel 24 attached to a shaft 25 for operating glass transfer apparatus presently to -be described. It will thus be seen that driving connections extend from a single motor for `coordinate operation of the glass feeder and transfer apparatus, and for coordinate rotation of the forming machine turret.

The detailed construction of the glass feeder, transfer apparatus and blowing machine will now be ldescribed in the or`der stated. l

I Feeder The invention is unlimited to any particular type of glass feeding or delivering apparatus. In the manufacture of some forms of paste mold glassware, particularly small slze glassware, the operation of the machine 1s so rapid that it is desirable to use a stream feeder of the Brooks or other suitable type. In other cases, a gob feeder such as that shown particularly in Fig. .5 may be used. This feeder comprises a reciprocatory7 needle adapted lto operate in, and control flow through, an orifice 31 in the bottom of a forehearth 32 leading from a glass melting tank or other source of glass supply. Needle 30 1s attached to the outer end of an arm 3.3 which is secured to the upper end of a vertically reciprocable shaft 34, the lower end of which is provided with a. roller 35 resting upon a suitable cam 36 attached to a rotaryy shaft 37. This shaft is provided at its lower end with a worm wheel 38 meshing with a worm 39 (Fig. 3) attached to a shaft 40 which is provided with a pinion 41 meshing with a pinion 42 attached to rotary shaft 22. Rotation of shaft 37 through the driving connections just explained causes shaft 34 to reciprocate vertically, and such reciprocation is imparted to-needle 30 to control flow of glass through orifice 31,- the glass being auto- .Y 4? the upper end of a shaft 55.5 Gears 52 and 53 remesas matically severed by suitable shears 43 inthe a n well known or any' desired manner. Because the driving connections for the feeder are directly connected to those for rotatin `the turret of the blowing machine, it bev understood .that the feederis operated in coi Transfer apparatus 'While the` gathers of glass taken'from the source of supply maybe variously transferred to the blowing machine and there successively applied to the lower ends of the blownheads, it is preferred toprovide a plurality of movable cups for 4this purpose.` Supported on frame 1 by posts 45v (Fig. 2) there'is a `runway formedy betweenthe outer edges ofl a i of this groove comes opposite to the pin, the

base casting 46 and a top plate 47, in which runway there are mounted a plurality of blocks 48 each provided with a glass-receiving cup 49. To lock the blocks 48 in the runway, and also to reduce their resistance to. movements alongV the runway, thelower .face of each block may `ne provided with a pair of rollers 50 (Figs. 1 and 4) which ride in a groove 51 formed inthe upper face of base 46.

At 'such time as a cup 49 is receiving glass 'from a feeder or other source of supply,` it is' desirable to have the cup stationa and,

y when the cup is applyingl its charge of i cup move continuously with the turret ofthe ing cups 'in theirtrunway exceptwhile they are applying their charges to the-blow heads, at whlchtime the blocks in which .the receiv- I n ing cups are mountedare engaged and'moved by the turret, as will presently befexplained more in detail.` vFor the intermittent move# ments of the cups, there are rotatably mounted on the up r face of b ase 46 a pair of gears 52 and 53 Fig. 1) which mesh with the opposlte sldes ofY a pinion v54 attached to are provided with a plurality of suitably spaced fingers 76 adapted to engage lugs 57 formed on the inner sides of receiving cup blocks 48. To illustrate these gears and the lingers attached to them plate 47 of the receiving cup runway is shown as being removed in Fig. 1.

lHaving reference particularlyto Figs..4, 6 and 7 shaft. 55 is provided with a clutch. element 56 which is splined upon the shaft for rotation with and longitudinal Vmovement upon it. Below clutch element 56 there is a cooperating clutch element 57 vformed on the upper end of a sleeve4 to which worm wheel 24\is attached. In Fig. 4 the clutch is shown inf'its released, and in Fig. 7in its applied position, it being normally held in its applied position by a spring 58. For intermittently releasing clutch element 56, it is provided glass` to a blow head, 1t is desirable' to have the gagementfwith its cooperating element 57 to l causeshaft 55 to rotate. After a'dog 63 1s passed-beyond the outer end of arm 61, spring 62 forces pin 60 against the periphery of clutch element 56 above the narrow portion ing-machine turretthese dogs being adapted toy of cam groove 59, and when the wideportion pin enters the wide portion of the groove, and further rdtation of shaft 55 causes the inclined portion of the groove to bear against the'topof the pin and elevate clutch element 56 to release the clutch. The arrangement here, including` the several interposed driving I gears and'pinlons, is such that ingers^76 on gears 52 and 53 (Fig. 1.) advance receiving cups '49 the required amounts at the required -I intervals. l s s AVhen abnormal conditions of operatlon arise, it'm'ay be desirable to interrupt the movements of the receiving and transfer cups.,l

For this purpose, the clutch element 56 is provided with a second, cam groove 65 similar to cam groove 59- but so disposed that its wider ortion is opposite the narrower portion og) groove 59. Adjacent to camggroove 65 there is a pin'66 attached to the inner end ,of an arm 67 whichis urged yieldingly towards groove 65 by a spring 68. To the outer end of arm 67 there vis attached a rod 69 provided at its outer end with a handle 70. This .rod ,extends through-a sleeve 71, and within such sleeve it is provided with a groove 72 adaptedto receivethe inner end of a pin 7 3 v -rOunding the outer end yof rrod 69. become effective to movethefin'ner end of arm 67 towards and into cam groove 65. Pin 66 then,

becomes effective to maintain clutch element 56 in' its `elevated position at such times as f `pin'60 is intermittently moved from cam groove 59 v net result of -this is that the clutch elementis continuously held in its upward clutchbraking position until rod 69 is again pushed inwardly and locked in its inward position bypin73. v, u

, Adjacent to therglass forming machine, the

through the action of dogs. The

receiving cup guide is of arcuate form con-.`

centric with the vertical axis of rotation of the turret.v For. moving each receiving cup along this arcuate Nportion of the runway while the cup is applying its charge of glass to .the lower end of a blow head. the-turretl 1s provided with a pluralityV of projections- 5 80 (F1g.-1) which engage receiving cup blocks' 48 and cause them tovmove in their runway at the rate of rotation of the turret. When being so moved, the blocks are no t engaged by a vertically movablebottom 82 to the lowerend of which there is attached a stem 83 engaged by the outer end of a finger 84 attached to a rock shaft 85, This shaft extends '25 through block 48 and is provided on itsinner end with`a lever-86 to which there is attached a roller 87 which runs in a groove 88 formed in the receivingcup guideway. In the arcuate portion of this guideway, groove 88 extends upwardly, as shown in Fig. 8, the

bottom of its upwardly extending portion being formed by a finger 89 yieldingly urged upwardlyby aspring 90. Thus when a receiving cup comes into registration with the lower end of a blow head, lever 86 is swung upwardly in groove 88 ,to rotate shaft 85 and cause its attached finger 84 to elevate 9 bottom82 of the receiving cup. This causes the gather of glasscarried by the receiving BZmving-,machz'ne The essential elements of the blowing niachine comprise blow heads 6 and partible molds 7 Each blow head is provided withl fa movable chuck for retaining the glass attached to it until completely blown, and is also provided with mechanism for controlling the puing and blowing air, and forrotating the blow head and or opening and closing each mold at the ldesired times; The construction and operation of the blow heads cup to be molded on the bottom of the blow to sleeve 101 for longitudinal movement in and rotation with it, and which is integrally ,provided at its lower end with a centrally disposed small section 302, through which,I

and through cylinder 105, there is a .passage 106 for blowing-air terminating. atthe cen- .ter of a parison mold 107 at the bottom of the blow head. Attached to the lower end of lsection 302, there is a nut 303 for clamping to such section an inverted cup-shaped member .304, the lower edge of which is adapted to seat upon a lead washer 305or other form of gasket borne by sleeve 101, to prevent the escape of blowing-air. and below the lower end of cylinder 105,

there is a vtubular casing 300 provided with radia-llyudisposed openings in which there are arranged the inner ends of links 111 pivotally attached to 'the casing. The outer ends of these links are pivotally connected to levers 109, pivoted at 110 to sleeve 101, and provided at their lower ends with chuck elements 108 for attaching parisons of glass to the blow head. In' a manner presently to be explained, provision is made for moving tubular casing 300 vertically to open and close chuck elements 108 through connecting links 111 and levers 109. y Y y For effecting the necessary verticalmovements of cylinder 105 to openy and close a Within sleeve 101 chuck,the upper end of the cylinder is proy cam groove\121 formed in the upper portion of the turret, and between block 119 and the inner rod of sleeve 117 there is a spring 122. Cam groove 121 is so formed that at the proper intervals it causes block 119 to.move outwardly and inwardly, thereby causing, through thetrain of connections just explained, blow head cylinder 105 to move downwardly and upwardly. When cylinder 105 is in its downward position indicated in Fig. 4, the lower end of cup-shaped member 304 prevents-the escape of blowing-air between the lower fend of section 302 and mold I 107. Upon-the upward movement of cylin-Y der 105, nut 303 .and member 304 are first raised to open a passage between the lower end of member 304 and ring 305 so that the interior of ay blown article `may be exposed.

to atmospheric pressure. Further upward movement of cylinder 105 causes theupper end of member i304 to engage the lower end of tubular casing' 300 which is then caused to l -rise with cylinder-105. This raising of tubular casing 300 causes the inner ends of links 111 to move upwardly, the outer ends of levers 109 to move inwardly, and the lower ends of these levers to move outwardly to open the chuck toA release a blown article.

While air under dilferen't pressures may be used for puliing and blowing, I have foundV that air undena single pressure. may be used for both of these operations. The machine frame is-providedwith an annular airsupply groove 125 (Fig. 10), open at its periphv ery, and connected by a pipe 126 to a suitable source of supply. 'Surrounding and closing this groove and forming part of the "turret, there is a ring 127 which is tapped to receive the innerend's .of pipes 128, one of which is provided for each blow head.. This pipe terminates ina valve comprising a casing 129 provided with inlet and outlet ports 130f and 131, and a spindle 132 provided with a transverse passage 133. Connected to and extendin from'casing port 131 there is a ilexibleplpe 134'which is attached to the up-` per end of apipe 135, the lower end of whichv is connected through suitable instrumentali tiesto the upper end of blow head cylinder 105 and in open communication with passage 106'through the cylinder. Normally, valve spindle 132 is held in valve closing position i by a spring 136 attached at its lower end to the outer end of an arm 137 securedto vthe spindle, and attachedat its upper end to an arm 138 attached to the valve easing.- Spindle arm 137 isprovided with 'a roller 139 adapted to be engaged and depressed by de-y tents 140 which may be adjustably' clamped to the machine turret. For a short blow or puff given to a blank in its preliminary forming, the detents 140 may be short, as shown in Fig. .112, and for the final blowing a long detent is used, its length depending upon what portion of thecycle o f rotation of the turret is necessary lor desirable to utilize in the Iinal blowingoperation. During pulling and blowing operations, the passage 133 of valve'spindle 132 is in the position indicated by the full lines in Fig. 12, and when blowing and pulling is not taking place, this passage is in itsdotted line position in whichl How of air is shut oli. I

v During ablowing operation, and also durl ing the' preliminary blank-forming operations in lthe manufacture of some forms of -paste mold glassware, the blow heads-.vare

rotated on their verticall axes. For this pur# lower end of which pose', there is mounted on the turret a motor 145 (Fi 1- and A10), the rotor of which isl lprovide .with a ar 148 attachedto a shaft 149. This with a pinion 147 which meshes blow heads. As seenin Fig. 10, each inion` 156 isatta'ched to a shaft '157 provide with a clutch gear 158 longitudinally movable upon the shaft to and from meshing engagee i ment with a cooperating clutch` gear 159. The latter gear is attached to shaft 104,110 the *,outer'end of which there'is connected bevel pinion 103 meshing with bevel gear 102 attached to'the upper end of .blow head sleeve 101, as previouslyexplained.

For making and breaking driving connections between clutch gears 158 and 159, the

former is -urged towards-clutch making position bya spring 162, and'is moved in the opposite direction by a lever 163 which engages a sleeve attached to clutch gear 158, and which is provided with a roller 164 bearing upon a cam 165 attached to the upper portion of themachine frame. At such por-` tions of the cycle ofv rotation ofthe turret las it is desired to interrupt or discontinuel the rotation of the blow heads, the peri eral face of cam 165 extends outwardly yond vthat shown in Fig. 10 suiiiciently to j cause lever 163 to move'outwardly and release clutch gear -158 from the clutch gear 159.

Having reference now tothe construction vof the `molds, and referring particularly to Figs. 3 and 4, each fnold 7 1s formed of two parts pivotally connected to each otherat 170,

' and to each mold part there isvconnected the outer end of a vielding link 171,` the inner .ends-of which are connected to a floating lever 172, pivotallyattached at its center to the outer end of an arm 173. The inner l end of this 'arm is connected-tov a vertically disposed shaft 174 rotatably mounted in the turret and provided at. its lower end with an arm 175 to which there is attached a roller 176'which bears upon ai cam 177 attached to a table 178 forming a part of the machine frame. Cam 177 is so formed thatit causes arm 175 to move inwardly `and outwardly to open and close the molds at the proper times.

Operation f Except for the rotation of the blow heads on their vertical axes, the several units of the apparatus are driven by motor 8 through coordinated driving connections, the turret 2, being continuously rotated through poww rotation of the turret.

y. 4.5 by chuck elements` A1408, whic er shaft 11, worm gear 12, worm wheel 13,

` vertical shaft 14,gear Aand internal gear` 16 (Figs. 1, 2and 3); the receiving and transfer cups 49 being intermittently ad- 5 vanced through power shaft 11 (Figs. 1, 6 and 7) worm gear 23, worm Wheel 24, clutch elements 57 and 56, shaft 55, pinion 54 and gears 52 and 53 and feeder needle 30 being vertically reciprocated through'power shaft 10 1-1 Figs. 2,3," 5 and 6) pinions 17 and 18, sha 19, pinions and 21, shaft 22, pinions 42 and 41, shaft 40, worm gear 39, worm wheel 3 8, ,shaft 37, cam 36, reciprocating shaft 34 and arm. 33. The turret is rotated in a clockwise direction and the receiving cups are moved in their runway in a counter clockwise direction, as these parts are viewed in Fig. 1l The timing of the operation of the feeder and of the'movements of the receiving cups is such that a receiving cup is stationary beneath the oriice 31 of the forehearth 32 (Fig.5) as a gather or gob of glass is discharged from the feeder.- Just after the *gather or gob is severed by shears 43 the receiving cup advancing mechanism, through geary 52 and a fingerv 76 attached to it, ad-

vances the receiving cup to a position Vwhere it is engaged by a turret projection 80 which then moves the receivin cup at the rate of le the receiving cup is being thus moved by the turret, the

Q bottom 82 of the cup (Figs. 8 and 9) is moved upwardly by lever arm 86, rock shaft 85,

.- finger 84 and stem 83 `depending from the movable bottom 82', arm 86 being moved by j the Ioove 88 inthe receiving cup (guideway. The ttom of the receivin cup an mold 107 at the lower end of the b ow head cylinder,

105 mold the ather of glass into a. parison 4 of the, form in 'cated at 180 in Fig. 13. This parison is of button-shaped form, having a orizontal diametery greater than its thick ness, and *being thicker at its center than at its edge. The parison is 'engaged at its edge Y ,when the glass K1s applied to the blow'had, are in their inwardglass-engaging position so that a por.

` tion of the gather 1s pressed outwardl Vbetween the lower lips of the chuckA an the outerportion of mold 107. 'Further movement-fof the turret results in the bottom 82 of .the receiving cup being lowered, and also in the lowering of the receiving cup which is engaged by the outer portion of its bottom.

55 The parison is thenfreelto sag downwardlyin the general manner 'indicated at 181 in Fig. 14, so that between the -upper face of the parison and the lower face of mold 107 there is a space for pulling air to act upon the upper 50 face of the parison. Further movement of the'turret moves the receiving cup beyond its engagement by the projection'80, the cup then being moved intermittently by fingers 76 of gear wheel 53 (Fig. 1).

The parison beingthus molded on the low- 152, pinion 153, ring ycases by either continued or intermittent 7",

rotation of the blow headwhile the parison remains laterally uncontined and suspended from the blow\head. The puing of a` blank is effected by the rotation of valve spindle 132 (Figs. 10, 11 and 12), the armv 137 of 75 which engages detents attached to the periphery of the upper portion of the machine frame. These detents depress arm 137 to bring passage 133 of the spindle into registration with ports 131 and 130 of the valve 30V casing so that air may then owpthrough the valve and the passage 106 of the blowy head4 cylinder 105. The rotation of the blow head on its vertical axis vis effected by motor (Figs. 1 dnd 10) through pinion 147, gear 148, 85 shaft 149, bevel pinions and 151, shaft gear 154, bevel ring gear 155, bevel pinion 156, shaft 157, clutch gears 158 and 159, shaft`104, bevel pinions vthickness gradually becomes thinner, as indi- -100 cated at 182, 183 and'184 inFigs. 15, 16 and 17. The form of blank shown in Fig. 15 is .that which it assumes as a ,result of the firstl puff, the form shown Fig. 16 is that which 1t assumes as a result of a further puff, and 105 the form shown in Fig. 17 is that which it assumes after it elongates subsequent to being puffed. When elongated to the form shown -in Fig: 17, the blank is readiness for bep 'ing blown.

While a parison is being formed on a blow head, as well as duringthe preliminary forming ofthe arison into an elongated and relatively thm wall blank, the partible mold for the blow head is in open position. When i115 the blank is developed to the form shown in Fig. 17, the mold closes upon it and final blowing ensues. The mold is closed by cam f 177 (Fig. 4) which engages roller 176 at the outer end of arm attached tqrock shaft 120 174. The rotation of this shaft moves arm' 17 3I (Fig. 3) outwardly, which, through ioating lever 172 and resilient links 171 closes the A mold. Whilethe mold remains closed, blowing air is applied tothe interior of the blank 125 through valve spindle- 132 and its o erating l. mechanism previously explained.

ormally the blowing continues for about the quarter of acomplete rotation of the turret, and dur ing such4 blowing the blank is continuously 13,0

- valve spindle 132, and the mold remains closed a suiicient length of time to permit the pressure within the blown article to be relieved or reduced'lto substantially atmospheric pressure. The mold is then opened throughout the operating connections previously eX- plained, and the blown article is then ready for removal from its blow head. This is done by causing blow head cylinder 105 (Fig. 4) to move upwardly, such movement causing the lower ends of chuck levers 109, and their attached chuck elements, to move outwardly, the blown article first being opened interiorly to atmospheric pressure. The blown article then drops upon a spitable receiving conveyor, or is otherwise dlsposed of. i

According to the provisions of the patent statutes, I have explained the principle and mode of operation of my invention, and have illustrated and described what I consider to represent the best embodiment-ofthe machine for glass blowing. However, I desire to have it understood that, within the scope of the appended claims, the invention may be practiced otherwise than as specifically described, and by mechanism other than that specifically illustrated.

I claim as my invention: g

1. In a paste mold glass blowing machine,

the combination of a vertically-disposed blow head, a mold, means for applying a button-shaped parison to the end of said head while downwardly disposed, means effective while the parison is laterally unconined and `while said head is maintained in its downpended from said head, and means for ef-v feeting final blowing of the suspended blank in said mold while effecting relative rotation between the blank and mold. f

2. In a paste mold glass blowing machine, the combination of a vertically-disposed blow 'head, 'a mold, means for applying a buttonshaped'parison to the end of said head while downwardly disposed, means effective while the parison is laterally unconlined and while said head is maintained in its downward po- 'in its downward position for preliminarily blowing the parison to develop a paste mold blank suspended from said head, means for closingesaid mold upon the developed blank, and means for blowing the blank and rotating it within the mold.

4. In a paste mold glass blowing machine, the combination of a rotary turret provided with a plurality of vertically disposed rblow heads and with partible molds positioned below said heads, means for applying buttonshaped parisons. successively to the ends ofA said heads while downwardly disposed and` While their cooperating molds are open, means seffective while each parison is laterally uncontined and while the head to which it is attached is maintainedin its downward position for preliminarily blowing the parison to develop a paste mold blank suspended from a blow head, means Jfor closing said molds successivelyupon the blanks, and means forF blowing the blanks and rotating them within the closed molds.

5t In a-paste mold glass blowing machine, thecombination of a continuously rotatable turret provided with -a plurality of vertically-disposed` blow heads and with partible molds positioned below said heads, means for applying button-shaped parisons successively to the ends of said heads while downwardsition for preliminarily blowing the parison l mold.

3. In a paste mold blowing' machine, the combination of a vertically-disposed. blow head, a partible moldpositioned below said head, means for applying a button-shaped parison to the end of said head while downwardly disposed and while the mold is open, 1 means effective while the parison is laterally unconiined. and while said head is maintained ly disposed and while their cooperating molds are open and while said turret is rotating, means 4effective while each parison is laterallyunconfined and while the head to which it is attached is maintained in its downward position for preliminarily blowing the parison to develop a paste mold blank suspended from a blow head, means for Aclosing said mold successively upon the developed blanks, and means for blowing the blanks and rotating them within the closed molds.

6. The combination with la source of glass supply, of a paste mold glass blowing machine including a movable member provided with a Yplurality of vertically-disposed developed blow heads and aplurality of partible molds n associated with the heads, means for receiving in succession charges of glass from said supply and for applying them successively in button-shaped parisons to the ends of said heads while downwardly disposed, and means for developing the parisons while suspended from said heads and while the heads to which they are attached are maintainedin their downward positions, and means for later blowing the developed blanks while rotating them in said molds.

7. The combination with a source of glass supply, of a paste mold glass blowing machine including a continuously rotatable turret provided with a plurality of verticallydisposed blow heads and a plurality of partible molds associated with the heads, means for receiving in succession charges of glass lfer the gathers of lass carried thereby to from said supply and for transferring them -said blow heads, an means for blowing said from said source and for applying them sucgathers in said molds. cessively in button-shaped parisons to the In testimony whereof, I si m name. ends of said heads while downwardly dis- Y THEODORE .f LOAN. posed, and means lor4 developing the parif sons while suspended from said heads and while the heads to which they are attached are maint ined in their downward positions, and mean for later blowing the developed blanks while rotating them in said molds.

8. The combination with a source of glass supply, of 'a paste mold glass blowing machine including a movable member provided with a plurality of vertically-disposed blow heads and a plurality of partible molds associated with the heads, a plurality of cups for receiving in succession charges of glass from said supply, means formoving each cup from. its glass-receiving position to a position 85 beneath one ofvsaid blow heads, means effectiye when a cup is in its last-named position for transferring its charge in the form of a buttomshaped parison to the lower end of a blow head while downwardly disposed, means for developing the parisons while suspended from said heads and while the heads t0 which they are attached are maintained in their .L downward posi-tions, and means for later blowing the developed blanks while rotating I 9:5-

them in said molds. y

9. The combination witha source of glassv .y t supply, of a paste mold Aglass .blowing machine including la continuously rotatable turret provided with a. plurality of verticallyc 10o disposed blow-heads and a plurality of partible molds associated with the heads, a runway extending between said source of supply and blow heads, glass-receiving cups borne by said runway, means for discharging gathers ofl glass successively from said supply into said receiving cups, means formovmg said receiving cups in said runway andfor trans- A ferring the` gathers of glass carried thereby y to said blow heads while downwardly disl I 110 posed, means for` developing gathers while suspended from said heads and while the l heads to which they are attached are maintained in their downward positions, and

means foi'ilater blowing the developedblanks 4 v 1'1`5 a continuously rotatable turret provided w1t while rotating them in said molds..

10. The combination with a. source of glass supply, ofa glass blowing machine includin a plurality of .verticallyedisposed blow heads 120 and a plurality of partible molds associated with the heads, a runway extending between said source of supply and the blow heads,

glass-receiving cups borne, by said runway l and provided with vertically movable botl toms, means for discharging gathers of glass successively from l,said supply into said receiving cups,"means for moving said receiving cups 1n said runway and for simultaneous- 1v moving their bottoms upwardly to transl 130 

